US2587294A - Device for stabilizing oscillations - Google Patents

Description

Feb. 26, 1952 DORBEC DEVICE FOR STABILIZING OSCILLATIONS Filed May 21, 1946 impedance is less reactive;

Patented F eb. 26, 1952 DEVICE FOR STABILIZING OSCILLATIONS Lucien Dorbec, Paris France, assignor to Societe Anonyme de Telecommunications, Paris, France, a body corporate of France Application May 21, 1946, Serial No. 671,186

In France December 16, 1942 Section 1, Public Law 690, August 8, 1946 Patent expires December 16, 1962 6 .Qlaiins.

, 1 The present invention pertains to the stabilization of oscillators, and its object is more particularly anoscilla-tor having great stability of operation over a wide scale of frequencies, whilst giving rise to a relatively small pro-, duction of harmonics. ready been proposed for increasing the stability Different means have alof an oscillator and reducing the production of harmonics; it is known, for example, to limit the alternating voltage, instead of using the bends of the characteristic curve of the oscillating tube, by means of an element associated with the oscillating circuit and acting as a variable resistance. for example dry rectifiers, tungsten or carbon filament lamps, a saturated iron core or a similar device. In this case, the oscillator as a whole may be considered as an amplifier operating in the rectilinear and consequently very stable portion of its characteristic curve, which amplifier is associated with an oscillating circuit provided with a voltage limiting device. Another known means for rendering stable an oscillator and for reducing the proportion of harmonies consists in making use of a ne ative feed back circuit. However, whatever he the device used, the reactance coils of the oscillating circuit unavoidably have losses varying with the frequency and due in particular to the resistance proper of the coils: for example, a coil of good quality and having low losses in one part of the frequency range used, may exhibit, on the contrary, important losses in another part of said ran e. The result is that in spite of the aforement oned improvements, tbe operation of the oscillator cannot remain constant, with respect,

-to the stability and the production of harmonics,

when the tuning capacity connected to the terminals of the coil varies within wide limits.

The device forming the object of the present invention is applicable to oscillators having a negative feed back circuit, and its object is to correct oscillating circuits insuch a manner that the operation of the oscillator, as well as its qualities are not dependenton the value of the tuning capacity of the said oscillating circuit; this device is characterised by the fact that it consists of a negative feed back circuit associated with the oscillating circuit and composed of elements so combined thatits impedance increases with the frequency.

The result obtained is all the better as this For'exam'ple, a circuit which is particularly adapted to the desired purpose is constituted by a reactance coil having high losses which increase with the frequency,

a device for" or by. a simple reactance coil associated, if necessary, with a resistance, or again, by a network comprising reactance coils, capacities and. .re-

sistances. By means of this device, the influence of the-negative feed backincreases rapidly-with an increase in the frequency, so that the-capacity Figure 1 is a diagram showing atwo-tube oscillator provided with a negative feed back circuit and followed by a power amplifier.

Fig. 2 shows a one-tube negative feedback oscillator circuit.

Figs. 3 to 10 show various types of oscillating circuits provided with the improvements according to the invention. I

In Fig. 1, the oscillator comprises two tubes I and 2 and an oscillating circuit comprising reactance coils 3, 3 and a tuning capacity 4- and mounted bet een the anode circuit of the tube 2. and the cathode circuit of the tube I, so as to produce a positive re ct on. A decouplin resistance 5 is mounted on the connection lead, whilst the t o rectifying co per oxide elements 6, 6 are mounted in parallel, but in the reverse direction one in relation to the other, on the terminals of the tuning capacity 4, so as to limit the voltage produced in the oscillating circuit 3+4. In accordance with t e in ention, a negative feed ba ck circuit constituted by a reactance coil 1 and a resistance 8 and having an impedance increasing with t e frequency, is added to the oscillating circuit 3-4. A power amplifier comprising thetubes 9-H! is mounted after the osjcillator I, 2 so as to eliminate all influence on the frequency ,of the load impedance which is assumed to be able to vary between a few ohms and several thousand ohms. An oscillator so constituted isv extremely stable; its stability only depends on the constancy of the oscillating circuits, which is of the order of 1/10 and it is furthermore poor in harmonics the proportion of which is from 2 to 3 1 /10 The volta e remains constant, with an approximation of a fraction of a decibel, whatever be the frequency, the load impedance and the supply voltages. device enables a band of frequencies from 30 to 300,000 periods per second to "be obtained, distributed over 10 bands, so as to provide a sufiicient accuracy of adjustment.

Fig. 2 illustrates the use of the device with Fig. 3 is a diagram of the feed back circuit,

in which it is possible to alter the sequence and the arrangement of the various elements according as the oscillating circuit is constituted by a. Hartley, Colpitts or similar circuit, as in Fig. 4. The non linear voltage limiting element 6, 6' may be placed in various points of the circuit, which are determined according as this element has a resistance which increases or decreases with the current flowing therethrough. For example a copper oxide element 6, 8', having a decreasing resistance, is placed in shunt on the circuit as in Figures 3, 4, and '7, whilst a tungstenfilament lamp l2, having an increasing resistance, is placed in series in one of the branches 3, 3 as shown in Figs. 5, 6, 8. These elements may moreover be used simultaneously, as in Fig. 5. An alternative embodiment is shown in Fig. 9 wherein a bridge formed of copper oxide elements [3, I4, I5, I6 is used with a resistance l1 to which may be added a biassing voltage represented by the battery 18. Likewise, the correcting device may be placed in various points of the circuit, as shown in Figs. 3, 4, 5 or 6, where the correcting parts are directly placed on the negative feed back element, or as in Fig. '7, where this part, which is constituted by the capacitv [9, forms part of the decoupling circuit. Fig. 10 shows a complex circuit composed of a reactance coil 1, capacities 20, 20' and resistance 8, 8' so as to extend still more the width of t e transmission band or eliminate certain harmonic frequencies.

What I claim is:

1. A vacuum tube oscillation generator, comprising a tube having at least anode, control grid and cathode elements, an oscillatory circuit external to said tube com rising an inductance and an ad ustable capacitance in p rallel and connected between the anode and the control grid of the tube. means connected w th said oscillating circuit for limitin t e amplitude of oscillation. and a ne ative feed back circuit comprising an element whose impedance increases with frequencv, said negative feed back circuit being connected between a point of the inductance in the oscillatory circuit and the cathode of the tube.

2. A vacuum tube oscillation generator, comprising a tube having at least anode, control grid and cathode elements, an oscillatorv circuit external to said tube comprising an inductance and an adjustable capacitance in parallel and connected between the anode and the control grid of the tube, means connected with said oscillating circuit for limiting the amplitude of oscillation, and a negative feed back circuit comprising a slightly inductive element, said negative feed back circuit being connected between a point of the inductance in the oscillatory circuit and the cathode of the tube.

3. A vacuum tube oscillation generator, comprising a tube having at least anode, control grid and cathode elements, an oscillatory circuit external to said tube comprising an inductance and an adjustable capacitance in parallel and connected between the anode and the control grid of the tubes, means connected with said oscillating circuit for limiting the amplitude of oscillation, and a negative feed back circuit comprising a reactance coil in series with a resistance, said negative feed back circuit being connected between a point of the inductance in the oscillatory circuit and the cathode of the tube.

4. A vacuum tube oscillation generator, comprising a tube having at least anode, control grid and cathode elements, an oscillatory circuit external to said tube comprising an inductance and an adjustable capacitance in parallel and connected between the anode and the control grid of the tube, means connected with said oscillating circuit for limiting the amplitude of oscillation, and a negative feed back circuit comprising a reactance coil having high losses increasing with the frequency said negative feed back circuit being connected between a point of the inductance in the oscillatory circuit and the cathode of the tube.

5. A vacuum tube oscillation generator, comprising a tube having-at least anode, a control grid and cathode elements, an oscillatory circuit external to said tube comprising an inductance and an adjustable capacitance in parallel and connected between the anode and the control grid of the tube, a voltage limiting means comprising copper oxide rectifiers connected in parallel with said oscillatory circuit for stabilizing the amplitude of oscillation, and a negative feed back circuit comprising an element Whose impedance increases with frequency, said negative feed back circuit being connected between a point of the inductance in the oscillatory circuit and the cathode of the tube.

6. A vacuum tube oscillation generator, comprising a tube having at least anode, control grid and cathode elements, an oscillatory circuit external to said tube comprising an inductance and an adjustable capacitance in parallel, and connected between the anode and the control grid of the tube, a voltage limiting means comprising a tungsten filament lamp connected in series with said oscillatory circuit for stabilizing the amplitude of oscillation, and a negative feed back circuit comprising an element whose impedance increases with frequency, said negative feed back circuit being connected between a point of the inductance in the oscillatory circuit and the cathode of the tube.

LUCIEN DORBEC.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1,568,891 Espenschied June 5, 1926 2,101,563 Rocard Dec. 7, 1937 2,103,403 Meacham June 20, 1939 2,173,427 Scott Sept. 19, 1939 2,268,872 Hewlett Jan. 6, 1942 2,303,485 Meacham Dec. 1, 1942 2,340,429 Rankin Feb. 1, 1944 2,482,493 King Sept. 20, 1949 FOREIGN PATENTS Number Country Date- 90,263 vSweden Sept. 21, 1937

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